<html> 
<head> 
    <script src="../OLLoader.js"></script> 
    <script type="text/javascript">

    function test_Format_GML_constructor(t) { 
        t.plan(4); 
         
        var options = {'foo': 'bar'}; 
        var format = new OpenLayers.Format.GML(options); 
        t.ok(format instanceof OpenLayers.Format.GML, 
             "new OpenLayers.Format.GML returns object" ); 
        t.eq(format.foo, "bar", "constructor sets options correctly"); 
        t.eq(typeof format.read, "function", "format has a read function"); 
        t.eq(typeof format.write, "function", "format has a write function"); 
    } 
    function test_Format_GML_getFid(t) { 
        t.plan(2);
        var parser = new OpenLayers.Format.GML();
        data = parser.read(test_content[1]);
        t.eq(data[0].fid, '221', 'fid on polygons set correctly (with whitespace)');
        t.eq(data[1].fid, '8', 'fid on linestrings set correctly with whitespace'); 
    }
    function test_Format_GML_no_clobber(t) { 
        t.plan(1); 
        var parser = new OpenLayers.Format.GML(); 
        data = parser.read(test_content[1]); 
        t.eq(window.i, undefined,
             "i is undefined in window scope after reading."); 
    }
    function test_Format_GML_read_3d(t) {
        t.plan(2);
        var parser = new OpenLayers.Format.GML();
        data = parser.read(test_content[0]);
        t.eq(data[0].geometry.getBounds().toBBOX(), "-1254041.389712,250906.951598,-634517.119991,762236.29408", "Reading 3d content returns geometry with correct bounds (no 0,0)");
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Reading 3d content returns polygon geometry");
    }   
    function test_Format_GML_write_geoms(t) {
        t.plan(5);
        var parser = new OpenLayers.Format.GML();
        
        var point = shell_start + serialize_geoms['point'] + shell_end;
        data = parser.read(point);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, point, "Point geometry round trips correctly.");
        
        var linestring = shell_start + serialize_geoms['linestring'] + shell_end;
        data = parser.read(linestring);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, linestring, "Line geometry round trips correctly.");
        
        var polygon = shell_start + serialize_geoms['polygon'] + shell_end;
        data = parser.read(polygon);
        var output = parser.write(data);
        output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, polygon, "Poly geometry round trips correctly.");
        
        var multipoint = shell_start + serialize_geoms['multipoint'] + shell_end;
        data = parser.read(multipoint);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, multipoint, "MultiPoint geometry round trips correctly.");
        
        var multilinestring = shell_start + serialize_geoms['multilinestring'] + shell_end;
        data = parser.read(multilinestring);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, multilinestring, "MultiLine geometry round trips correctly.");

    }    
    function test_Format_GML_read_point_geom(t) {
        t.plan(3);
        
        var point = shell_start + geoms['point'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(point);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Point", "Point GML returns correct classname");
        t.eq(data[0].geometry.x, 1, "x coord correct");
        t.eq(data[0].geometry.y, 2, "y coord correct");
    }
    function test_Format_GML_read_linestring_geom(t) {
        t.plan(5);
        
        var line = shell_start + geoms['linestring'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(line);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.LineString", "LineString GML returns correct classname");
        t.eq(data[0].geometry.components[0].x, 1, "first x coord correct");
        t.eq(data[0].geometry.components[0].y, 2, "first y coord correct");
        t.eq(data[0].geometry.components[1].x, 4, "second x coord correct");
        t.eq(data[0].geometry.components[1].y, 5, "second y coord correct");
    }    
    function test_Format_GML_read_polygon_geom(t) {
        t.plan(7);
        
        var polygon = shell_start + geoms['polygon'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(polygon);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Polygon GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 1, "first x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 2, "first y coord correct");
        t.eq(data[0].geometry.components[0].components[1].x, 4, "second x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 5, "second y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 4, "coords length correct");
        t.eq(data[0].geometry.components.length, 1, "rings length correct");
    }   
    function test_Format_GML_read_multipoint_geom(t) {
        t.plan(6);
        
        var multipoint = shell_start + geoms['multipoint'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(multipoint);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.MultiPoint", "MultiPoint GML returns correct classname");
        t.eq(data[0].geometry.components[0].x, 1, "x coord correct");
        t.eq(data[0].geometry.components[0].y, 2, "y coord correct");
        t.eq(data[0].geometry.components.length, 2, "length correct");
        t.eq(data[0].geometry.components[1].x, 4, "x coord correct");
        t.eq(data[0].geometry.components[1].y, 5, "y coord correct");
    }    
    function test_Format_GML_read_multilinestring_geom(t) {
        t.plan(6);
        
        var multilinestring = shell_start + geoms['multilinestring'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(multilinestring);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.MultiLineString", "MultiLineString GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 1, "x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 2, "y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 2, "length correct");
        t.eq(data[0].geometry.components[0].components[1].x, 4, "x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 5, "y coord correct");
        
    }    
    function test_Format_GML_read_polygon_with_holes_geom(t) {
        t.plan(12);
        
        var polygon_with_holes = shell_start + geoms['polygon_with_holes'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(polygon_with_holes);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Polygon GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 1, "first x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 2, "first y coord correct");
        t.eq(data[0].geometry.components[0].components[1].x, 4, "second x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 5, "second y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 4, "coords length correct");
        t.eq(data[0].geometry.components[1].components[0].x, 11, "first x coord correct");
        t.eq(data[0].geometry.components[1].components[0].y, 12, "first y coord correct");
        t.eq(data[0].geometry.components[1].components[1].x, 14, "second x coord correct");
        t.eq(data[0].geometry.components[1].components[1].y, 15, "second y coord correct");
        t.eq(data[0].geometry.components[1].components.length, 4, "coords length correct");
        t.eq(data[0].geometry.components.length, 2, "rings length correct");
    }
    function test_Format_GML_read_attributes(t) {
        t.plan(3);
        var parser = new OpenLayers.Format.GML();
        data = parser.read(test_content[0]);
        t.eq(data[0].attributes['NAME'], "WY", "Simple Attribute data is read correctly.");
        t.eq(data[0].attributes['LONGNAME'], "Wyoming", "Attribute data is read from CDATA node correctly.");
        t.ok(data[0].attributes['EMPTYATTR'] === null, "Attribute set to null for empty element.");
    }
    function test_Format_GML_read_envelope_geom(t) {
        t.plan(13);
        
        var envelope = shell_start + geoms['envelope'] + shell_end;
        var parser = new OpenLayers.Format.GML();
        data = parser.read(envelope);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Envelope GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 0, "first x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 1, "first y coord correct");
        t.eq(data[0].geometry.components[0].components[1].x, 20, "second x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 1, "second y coord correct");
        t.eq(data[0].geometry.components[0].components[2].x, 20, "third x coord correct");
        t.eq(data[0].geometry.components[0].components[2].y, 21, "third y coord correct");
        t.eq(data[0].geometry.components[0].components[3].x, 0, "fouth x coord correct");
        t.eq(data[0].geometry.components[0].components[3].y, 21, "fourth y coord correct");
        t.eq(data[0].geometry.components[0].components[4].x, 0, "fifth x coord correct");
        t.eq(data[0].geometry.components[0].components[4].y, 1, "fifth y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 5, "coords length correct");
        t.eq(data[0].geometry.components.length, 1, "rings length correct");
    }    
    ///////////////////////////////////////////////////////////////
    // tests the y x order of gml point
    /////////////////////////////////////////////////////////////
    function test_Format_GML_read_point_geom_yx(t) {
        t.plan(3);
        
        var point = shell_start + geoms_yx['point'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(point);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Point", "Point GML returns correct classname");
        t.eq(data[0].geometry.x, 1, "x coord correct");
        t.eq(data[0].geometry.y, 2, "y coord correct");
    } 
    function test_Format_GML_read_linestring_geom_yx(t) {
        t.plan(5);
        
        var line = shell_start + geoms_yx['linestring'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(line);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.LineString", "LineString GML returns correct classname");
        t.eq(data[0].geometry.components[0].x, 1, "first x coord correct");
        t.eq(data[0].geometry.components[0].y, 2, "first y coord correct");
        t.eq(data[0].geometry.components[1].x, 4, "second x coord correct");
        t.eq(data[0].geometry.components[1].y, 5, "second y coord correct");
    }    
    function test_Format_GML_read_polygon_geom_yx(t) {
        t.plan(7);
        
        var polygon = shell_start + geoms_yx['polygon'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(polygon);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Polygon GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 1, "first x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 2, "first y coord correct");
        t.eq(data[0].geometry.components[0].components[1].x, 4, "second x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 5, "second y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 4, "coords length correct");
        t.eq(data[0].geometry.components.length, 1, "rings length correct");
    }   
    function test_Format_GML_read_multipoint_geom_yx(t) {
        t.plan(6);
        
        var multipoint = shell_start + geoms_yx['multipoint'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(multipoint);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.MultiPoint", "MultiPoint GML returns correct classname");
        t.eq(data[0].geometry.components[0].x, 1, "x coord correct");
        t.eq(data[0].geometry.components[0].y, 2, "y coord correct");
        t.eq(data[0].geometry.components.length, 2, "length correct");
        t.eq(data[0].geometry.components[1].x, 4, "x coord correct");
        t.eq(data[0].geometry.components[1].y, 5, "y coord correct");
    }    
    function test_Format_GML_read_multilinestring_geom_yx(t) {
        t.plan(6);
        
        var multilinestring = shell_start + geoms_yx['multilinestring'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(multilinestring);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.MultiLineString", "MultiLineString GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 1, "x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 2, "y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 2, "length correct");
        t.eq(data[0].geometry.components[0].components[1].x, 4, "x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 5, "y coord correct");
        
    }    
    function test_Format_GML_read_polygon_with_holes_geom_yx(t) {
        t.plan(12);
        
        var polygon_with_holes = shell_start + geoms_yx['polygon_with_holes'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(polygon_with_holes);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Polygon GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 1, "first x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 2, "first y coord correct");
        t.eq(data[0].geometry.components[0].components[1].x, 4, "second x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 5, "second y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 4, "coords length correct");
        t.eq(data[0].geometry.components[1].components[0].x, 11, "first x coord correct");
        t.eq(data[0].geometry.components[1].components[0].y, 12, "first y coord correct");
        t.eq(data[0].geometry.components[1].components[1].x, 14, "second x coord correct");
        t.eq(data[0].geometry.components[1].components[1].y, 15, "second y coord correct");
        t.eq(data[0].geometry.components[1].components.length, 4, "coords length correct");
        t.eq(data[0].geometry.components.length, 2, "rings length correct");
    }

    function test_Format_GML_read_envelope_geom_yx(t) {
        t.plan(13);
        
        var envelope = shell_start + geoms_yx['envelope'] + shell_end;
        var parser = new OpenLayers.Format.GML({'xy':false});
        data = parser.read(envelope);
        t.eq(data[0].geometry.CLASS_NAME, "OpenLayers.Geometry.Polygon", "Envelope GML returns correct classname");
        t.eq(data[0].geometry.components[0].components[0].x, 0, "first x coord correct");
        t.eq(data[0].geometry.components[0].components[0].y, 1, "first y coord correct");
        t.eq(data[0].geometry.components[0].components[1].x, 20, "second x coord correct");
        t.eq(data[0].geometry.components[0].components[1].y, 1, "second y coord correct");
        t.eq(data[0].geometry.components[0].components[2].x, 20, "third x coord correct");
        t.eq(data[0].geometry.components[0].components[2].y, 21, "third y coord correct");
        t.eq(data[0].geometry.components[0].components[3].x, 0, "fouth x coord correct");
        t.eq(data[0].geometry.components[0].components[3].y, 21, "fourth y coord correct");
        t.eq(data[0].geometry.components[0].components[4].x, 0, "fifth x coord correct");
        t.eq(data[0].geometry.components[0].components[4].y, 1, "fifth y coord correct");
        t.eq(data[0].geometry.components[0].components.length, 5, "coords length correct");
        t.eq(data[0].geometry.components.length, 1, "rings length correct");
    }
    
    function test_Format_GML_write_geoms_yx(t) {
        t.plan(5);
        var parser = new OpenLayers.Format.GML({'xy':false});
        
        var point_xy = shell_start + serialize_geoms['point'] + shell_end;
        var point = shell_start + serialize_geoms_yx['point'] + shell_end;
        data = parser.read(point);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, point_xy, "Point geometry round trips correctly.");
        
        var linestring_xy = shell_start + serialize_geoms['linestring'] + shell_end;
        var linestring = shell_start + serialize_geoms_yx['linestring'] + shell_end;
        data = parser.read(linestring);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, linestring_xy, "Line geometry round trips correctly.");
        
        var polygon_xy = shell_start + serialize_geoms['polygon'] + shell_end;
        var polygon = shell_start + serialize_geoms_yx['polygon'] + shell_end;
        data = parser.read(polygon);
        var output = parser.write(data);
        output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, polygon_xy, "Poly geometry round trips correctly.");
        
        var multipoint_xy = shell_start + serialize_geoms['multipoint'] + shell_end;
        var multipoint = shell_start + serialize_geoms_yx['multipoint'] + shell_end;
        data = parser.read(multipoint);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, multipoint_xy, "MultiPoint geometry round trips correctly.");
        
        var multilinestring_xy = shell_start + serialize_geoms['multilinestring'] + shell_end;
        var multilinestring = shell_start + serialize_geoms_yx['multilinestring'] + shell_end;
        data = parser.read(multilinestring);
        var output = parser.write(data);
        var output = output.replace(/<\?[^>]*\?>/, ''); // Remove XML Prolog
        t.eq(output, multilinestring_xy, "MultiLine geometry round trips correctly.");
    }
    
    function test_buildGeometryNode_bounds(t) {
        t.plan(1);
        var parser = new OpenLayers.Format.GML();
        var bounds = new OpenLayers.Bounds(-180, -90, 180, 90);
        var output, expect;
        
        // test that bounds are written as gml:Box
        var output = parser.buildGeometryNode(bounds);
        var expect = '<gml:Box xmlns:gml="http://www.opengis.net/gml"><gml:coordinates decimal="." cs="," ts=" ">-180,-90 180,90</gml:coordinates></gml:Box>';
        t.xml_eq(output, expect, "[xy true] Bounds correctly written as gml:Box");
    }
    
    function test_parseFeatureBox(t) {
        t.plan(8); 
        var parser = new OpenLayers.Format.GML();
        var xmlparser = new OpenLayers.Format.XML();

        var data = xmlparser.read(test_box[0]);
        var feature = parser.parseFeature(data);
        t.ok(feature.bounds instanceof OpenLayers.Bounds, 
             "got bounds object for feature.bounds when with boundedBy Box, without geometry");
        t.eq(feature.geometry, null, 'geometry is null for a feature with boundedBy Box, but no geometry');

        var data = xmlparser.read(test_box[1]);
        feature = parser.parseFeature(data);
        t.eq(feature.bounds, null,
             "feature is null when without boundedBy Box, with Box geometry");
        t.ok(feature.geometry instanceof OpenLayers.Geometry.Polygon,
             "got polygon object for feature.geometry when without boundedBy Box, with Box geometry");

        data = xmlparser.read(test_box[2]);
        feature = parser.parseFeature(data);
        t.eq(feature.bounds, null, 
             "feature.bounds is null when without boundedBy Box, without geometry");
        t.eq(feature.geometry, null, 'geometry is null when without boundedBy Box, without geometry');

        data = xmlparser.read(test_box[3]);
        feature = parser.parseFeature(data);
        t.ok(feature.bounds instanceof OpenLayers.Bounds, 
             "got bounds object for feature.bounds when with boundedBy Box, with Box geometry");
        t.ok(feature.geometry instanceof OpenLayers.Geometry.Polygon,
             "got polygon object for feature.geometry when with boundedBy Box, with Box geometry");
    }
    
    var test_box = [
        // with boundedBy Box, without geometry
        '<Sentiers_littoraux_feature><gml:boundedBy xmlns:gml="http://www.opengis.net/gml"><gml:Box srsName="EPSG:2154"><gml:coordinates>143564.081753,6817901.121957 144209.641321,6819104.781451</gml:coordinates></gml:Box></gml:boundedBy><DEPARTEMENT>Finistère</DEPARTEMENT></Sentiers_littoraux_feature>',
        // without boundedBy Box, with Box geometry
        '<Sentiers_littoraux_feature><msGeometry><gml:Box srsName="EPSG:2154" xmlns:gml="http://www.opengis.net/gml"><gml:coordinates>143564.081753,6817901.121957 144209.641321,6819104.781451</gml:coordinates></gml:Box></msGeometry><DEPARTEMENT>Finistère</DEPARTEMENT></Sentiers_littoraux_feature>',
        // without boundedBy, without geometry
        '<Sentiers_littoraux_feature><DEPARTEMENT>Finistère</DEPARTEMENT></Sentiers_littoraux_feature>',
        // with boundedBy Box, with Box geometry
        '<Sentiers_littoraux_feature><msGeometry><gml:Box srsName="EPSG:2154" xmlns:gml="http://www.opengis.net/gml"><gml:coordinates>143564.081753,6817901.121957 144209.641321,6819104.781451</gml:coordinates></gml:Box></msGeometry><gml:boundedBy xmlns:gml="http://www.opengis.net/gml"><gml:Box srsName="EPSG:2154"><gml:coordinates>143564.081753,6817901.121957 144209.641321,6819104.781451</gml:coordinates></gml:Box></gml:boundedBy><DEPARTEMENT>Finistère</DEPARTEMENT></Sentiers_littoraux_feature>'];

    var test_content = ['<?xml version="1.0" encoding="utf-8" ?>\n<ogr:FeatureCollection\n     xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"\n     xsi:schemaLocation="http://ogr.maptools.org/ testoutput.xsd"\n     xmlns:ogr="http://ogr.maptools.org/"\n     xmlns:gml="http://www.opengis.net/gml">\n  <gml:boundedBy>\n    <gml:Box>\n      <gml:coord><gml:X>-1254041.389711702</gml:X><gml:Y>250906.9515983529</gml:Y></gml:coord>\n      <gml:coord><gml:X>-634517.1199908922</gml:X><gml:Y>762236.2940800377</gml:Y></gml:coord>\n    </gml:Box>\n  </gml:boundedBy>                    \n  <gml:featureMember>\n    <ogr:states fid="F0">\n      <ogr:geometryProperty><gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates>-634517.11999089224,691849.77929356066,0 -653761.64509297756,471181.53429472551,0 -673343.60852865304,250906.9515983529,0 -1088825.734430399,299284.85108220269,0 -1254041.3897117018,324729.27754874947,0 -1235750.4212498858,434167.33911316615,0 -1190777.7803201093,704392.96327195223,0 -1181607.835811228,762236.29408003774,0 -634517.11999089224,691849.77929356066,0</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs></gml:Polygon></ogr:geometryProperty>\n      <ogr:NAME>WY</ogr:NAME>\n    <ogr:EMPTYATTR/><ogr:LONGNAME><![CDATA[Wyoming]]></ogr:LONGNAME>\n    </ogr:states>\n  </gml:featureMember>\n</ogr:FeatureCollection>\n',
 '<wfs:FeatureCollection' + 
 '   xmlns:fs="http://example.com/featureserver"' + 
 '   xmlns:wfs="http://www.opengis.net/wfs"' + 
 '   xmlns:gml="http://www.opengis.net/gml"' + 
 '   xmlns:ogc="http://www.opengis.net/ogc"' + 
 '   xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"' + 
 '   xsi:schemaLocation="http://www.opengis.net/wfs http://schemas.opengeospatial.net//wfs/1.0.0/WFS-basic.xsd">' + 
 '        ' + 
 '' + 
 '        <gml:featureMember>' + 
 '  \n<fs:scribble fid="221">' + 
 '        <fs:geometry>' + 
 '        <gml:Polygon>' + 
 '              ' + 
 '              <gml:outerBoundaryIs><gml:LinearRing>' + 
 '              <gml:coordinates>149.105072021,-35.1816558838 149.100608826,-35.1844024658 149.098892212,-35.1898956299  149.105072021,-35.1816558838</gml:coordinates>' + 
 '              </gml:LinearRing></gml:outerBoundaryIs>' + 
 '             ' + 
 '              </gml:Polygon>' + 
 '        </fs:geometry>' + 
 '        <fs:title>random test features</fs:title>' + 
 '        </fs:scribble>' + 
 '</gml:featureMember> ' +
 ' <gml:featureMember><fs:scribble fid="8">    <fs:geometry>        <gml:Point><gml:coordinates>-81.38671875,27.0703125</gml:coordinates></gml:Point>         </fs:geometry> ' +
 '        <fs:down>south</fs:down><fs:title>Florida</fs:title>        </fs:scribble></gml:featureMember>' + 
 '</wfs:FeatureCollection>'
 ];
   
    var shell_start = '<wfs:FeatureCollection xmlns:wfs="http://www.opengis.net/wfs"><gml:featureMember xmlns:gml="http://www.opengis.net/gml"><feature:features xmlns:feature="http://mapserver.gis.umn.edu/mapserver" fid="221"><feature:geometry>'; 
    if (OpenLayers.BROWSER_NAME == "opera") {
        shell_start = '<wfs:FeatureCollection xmlns:wfs="http://www.opengis.net/wfs"><gml:featureMember xmlns:gml="http://www.opengis.net/gml"><feature:features fid="221" xmlns:feature="http://mapserver.gis.umn.edu/mapserver"><feature:geometry>'; 
    }    
    var shell_end = '</feature:geometry></feature:features></gml:featureMember></wfs:FeatureCollection>';
    var serialize_geoms = {
        'point': '<gml:Point><gml:coordinates decimal="." cs="," ts=" ">1,2</gml:coordinates></gml:Point>',
        'linestring': '<gml:LineString><gml:coordinates decimal="." cs="," ts=" ">1,2 4,5</gml:coordinates></gml:LineString>',
        'polygon': '<gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates decimal="." cs="," ts=" ">1,2 4,5 3,6 1,2</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs></gml:Polygon>',
        'multipoint': '<gml:MultiPoint><gml:pointMember><gml:Point><gml:coordinates decimal="." cs="," ts=" ">1,2</gml:coordinates></gml:Point></gml:pointMember><gml:pointMember><gml:Point><gml:coordinates decimal="." cs="," ts=" ">4,5</gml:coordinates></gml:Point></gml:pointMember></gml:MultiPoint>',
        'multilinestring': '<gml:MultiLineString><gml:lineStringMember><gml:LineString><gml:coordinates decimal="." cs="," ts=" ">1,2 4,5</gml:coordinates></gml:LineString></gml:lineStringMember><gml:lineStringMember><gml:LineString><gml:coordinates decimal="." cs="," ts=" ">11,12 14,15</gml:coordinates></gml:LineString></gml:lineStringMember></gml:MultiLineString>'
    };
    var geoms = {
        'point': '<gml:Point><gml:coordinates>1,2,3</gml:coordinates></gml:Point>',
        'linestring': '<gml:LineString><gml:coordinates>1,2,3 4,5,6</gml:coordinates></gml:LineString>',
        'polygon': '<gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates>1,2 4,5 3,6 1,2</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs></gml:Polygon>',
        'polygon_with_holes': '<gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates>1,2 4,5 3,6 1,2</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs><gml:innerBoundaryIs><gml:LinearRing><gml:coordinates>11,12 14,15 13,16 11,12</gml:coordinates></gml:LinearRing></gml:innerBoundaryIs></gml:Polygon>',
        'multipoint': '<gml:MultiPoint><gml:Point><gml:coordinates>1,2,3</gml:coordinates></gml:Point><gml:Point><gml:coordinates>4,5,6</gml:coordinates></gml:Point></gml:MultiPoint>',
        'multilinestring': '<gml:MultiLineString><gml:LineString><gml:coordinates>1,2,3 4,5,6</gml:coordinates></gml:LineString><gml:LineString><gml:coordinates>11,12,13 14,15,16</gml:coordinates></gml:LineString></gml:MultiLineString>',
        'envelope': '<gml:Envelope><gml:lowerCorner>0 1</gml:lowerCorner><gml:upperCorner>20 21</gml:upperCorner></gml:Envelope>' // ,
        // 'multipolygon_with_holes': '<gml:MultiPolygon><gml:Polygon><gml:outerBoundaryIs>1,2 4,5 3,6 1,2</gml:outerBoundaryIs><gml:innerBoundaryIs>11,12 14,15 13,16 11,12</gml:innerBoundaryIs></gml:Polygon><gml:Polygon><gml:outerBoundaryIs>101,102 104,105 103,106 101,102</gml:outerBoundaryIs><gml:innerBoundaryIs>111,112 114,115 113,116 111,112</gml:innerBoundaryIs></gml:Polygon></gml:MultiPolygon>'
    };


//
// The following data has the (x y) reordered to (y x), in 3 dimensions it goes from (x y z) to (y x z)
//
    
    var serialize_geoms_yx = {
        'point': '<gml:Point><gml:coordinates decimal="." cs="," ts=" ">2,1</gml:coordinates></gml:Point>',
        'linestring': '<gml:LineString><gml:coordinates decimal="." cs="," ts=" ">2,1 5,4</gml:coordinates></gml:LineString>',
        'polygon': '<gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates decimal="." cs="," ts=" ">2,1 5,4 6,3 2,1</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs></gml:Polygon>',
        'multipoint': '<gml:MultiPoint><gml:pointMember><gml:Point><gml:coordinates decimal="." cs="," ts=" ">2,1</gml:coordinates></gml:Point></gml:pointMember><gml:pointMember><gml:Point><gml:coordinates decimal="." cs="," ts=" ">5,4</gml:coordinates></gml:Point></gml:pointMember></gml:MultiPoint>',
        'multilinestring': '<gml:MultiLineString><gml:lineStringMember><gml:LineString><gml:coordinates decimal="." cs="," ts=" ">2,1 5,4</gml:coordinates></gml:LineString></gml:lineStringMember><gml:lineStringMember><gml:LineString><gml:coordinates decimal="." cs="," ts=" ">12,11 15,14</gml:coordinates></gml:LineString></gml:lineStringMember></gml:MultiLineString>'
    };
    var geoms_yx = {
        'point': '<gml:Point><gml:coordinates>2,1,3</gml:coordinates></gml:Point>',
        'linestring': '<gml:LineString><gml:coordinates>2,1,3 5,4,6</gml:coordinates></gml:LineString>',
        'polygon': '<gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates>2,1 5,4 6,3 2,1</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs></gml:Polygon>',
        'polygon_with_holes': '<gml:Polygon><gml:outerBoundaryIs><gml:LinearRing><gml:coordinates>2,1 5,4 6,3 2,1</gml:coordinates></gml:LinearRing></gml:outerBoundaryIs><gml:innerBoundaryIs><gml:LinearRing><gml:coordinates>12,11 15,14 16,13 12,11</gml:coordinates></gml:LinearRing></gml:innerBoundaryIs></gml:Polygon>',
        'multipoint': '<gml:MultiPoint><gml:Point><gml:coordinates>2,1,3</gml:coordinates></gml:Point><gml:Point><gml:coordinates>5,4,6</gml:coordinates></gml:Point></gml:MultiPoint>',
        'multilinestring': '<gml:MultiLineString><gml:LineString><gml:coordinates>2,1,3 5,4,6</gml:coordinates></gml:LineString><gml:LineString><gml:coordinates>12,11,13 15,14,16</gml:coordinates></gml:LineString></gml:MultiLineString>',
        'envelope': '<gml:Envelope><gml:lowerCorner>1 0</gml:lowerCorner><gml:upperCorner>21 20</gml:upperCorner></gml:Envelope>'
    };
    
    </script> 
</head> 
<body> 
</body> 
</html> 
